Junya Katagiri, T. Yoshioka, T. Mizoguchi
Jun 7, 2006
Citations
2
Influential Citations
41
Citations
Journal
Analytica Chimica Acta
Abstract
Abstract The basic study on the determination of tetrafluoroborate ion (BF 4 − ) by ion chromatography, and total boron by conversion of boric acid to BF 4 − followed by ion chromatography of BF 4 − has been carried out. The results of thermodynamic calculations for the system of boric acid (H 3 BO 3 )–F − –H + showed that the mole fraction of BF 4 − was higher than 99% at pH lower than 3.5 and 4.5 when the total free fluoride concentration (2[H 2 F 2 ] + 2[HF 2 − ] + [HF] + [F − ]) was as high as 0.1 and 1.0 M, respectively. The fraction of BF 4 − increased with increasing total free fluoride concentration. BF 4 − fraction values were higher than 99% at pH 0.75 and at total free fluoride concentration of 0.05 M or higher. BF 4 − was hardly formed at pH > 7 even when the total free fluoride concentration was as high as 1.0 M. According to the experimental results, the fraction of BF 4 − at pH 0.7–0.8 was 51.2, 95.6 and 96.7% when the total fluoride concentration (2[H 2 F 2 ] + 2[HF 2 − ] + [HF] + [F − ] + 3[BF 3 OH − ] + 4[BF 4 − ]) was 0.2, 1.0 and 3.3 M, respectively. The formation reaction of BF 4 − from boric acid reached an equilibrium state within 20 min regardless of reaction temperature, in the range of 20–50 °C, when the total boron and total fluoride concentrations were 66.7 mM and 1.0 M, respectively. Although BF 4 − was formed only under acidic conditions, BF 4 − , once formed, was very stable under alkaline conditions at least for several hours. We have concluded that BF 4 − could be analyzed by ion chromatography using sodium hydroxide solution as an eluent because BF 4 − was stable under chromatographic conditions. BF 4 − solution prepared from boric acid could be used as a standard solution in the ion chromatographic analysis of BF 4 − instead of the sodium tetrafluoroborate (NaBF 4 ) reagent available commercially, if a discrepancy of about 4–5% was allowed.